Printing system comprising a sheet separation system

The invention claimed is: 1. A printing system comprising: an endless metal transport belt for transporting sheets in a transport direction, wherein the metal transport belt comprises multiple through-holes through which an underpressure or overpressure may be applied on the sheets, and wherein the metal transport belt comprises a straight section and a curved section downstream from the straight section where the metal transport belt curves and changes direction; a sheet separation system for separating the sheets from the metal transport belt, comprising a stationary sliding surface over which the metal transport belt is slideable, the stationary sliding surface comprising a number of blow holes defining an overpressure zone formed in a curved part of the stationary sliding surface, the overpressure zone having an upstream end and a downstream end which are determined by the location of the blow holes, the number of blow holes being connected to a source of pressurized air and configured to apply a local overpressure in the overpressure zone through the metal transport belt onto the underside of the sheets to separate a front end of the sheets from the metal transport belt; and a sheet separation guide which guides the separated sheets away from the metal transport belt, wherein the sheet separation guide is positioned at the curved section, downstream of the stationary sliding surface, and directly adjoining the overpressure zone at the downstream end thereof. 2. The printing system according to claim 1 , wherein the blow holes in the overpressure in the curved part of the stationary sliding surface are located in a region where the metal transport belt has an inclination angle to the horizontal of between 15 and 50 degrees. 3. The printing system according to claim 1 , further comprising an upstream curved sliding surface which is located directly upstream from the overpressure zone, and wherein the upstream curved sliding surface comprises holes which are connected to a suction device for applying underpressure on the sheets directly upstream of the overpressure zone. 4. The printing system according to claim 1 , wherein the stationary sliding surface comprises a downstream curved sliding surface which is located downstream from the overpressure zone, wherein the downstream curved sliding surface guides the metal transport belt further along the curved section, and wherein the downstream curved sliding surface is in particular free of blow holes. 5. The printing system according to claim 1 , wherein the stationary sliding surface is defined by three distinct parts: an upstream curved sliding surface defining an underpressure zone, an overpressure curved sliding surface formed by the curved part which forms the overpressure zone, which overpressure curved sliding surface defines the overpressure zone, and a downstream curved sliding surface which is positioned downstream from the sheet separation guide. 6. The printing system according to claim 1 , wherein the curved part of the stationary sliding surface guides the metal transport belt along the entire curved section over an angle of at least 90 degrees. 7. The printing system according to claim 1 , wherein there is no roller at the curved section of the metal transport belt. 8. The printing system according to claim 1 , wherein a roller adjoins the overpressure zone in the curved part of the stationary sliding surface at the downstream end thereof and guides the metal transport belt downstream from the overpressure zone in the curved part of the stationary sliding surface, and wherein the transport belt is guided by the curve and the roller together. 9. The printing system according to claim 8 , wherein the stationary sliding surface is defined by a body having an underside which is curved and has a same curvature radius as a radius of the roller, and wherein the curved underside is positioned in close proximity with the outer surface of the roller. 10. The printing system according to claim 8 , wherein the roller guides the metal transport belt over an angle of at least 70 degrees to 90 degrees. 11. The printing system according to claim 8 , wherein the curved part which forms the overpressure zone is located at least partially vertically above the roller. 12. The printing system according to claim 8 , wherein the curved part which forms the overpressure zone extends to a region downstream of the highest point of the roller. 13. The printing system according to claim 1 , wherein the stationary sliding surface by itself guides the metal transport belt over a curvature of at least 90 degrees. 14. The printing system according to claim 1 , wherein the printing system is an inkjet printing system. 15. A method of separating sheets from an endless metal transport belt in a printing system, the method comprising the steps of: providing a printing system comprising: an endless metal transport belt for transporting sheets in a transport direction, wherein the metal transport belt comprises multiple through holes through which an underpressure or overpressure may be applied on the sheets, and wherein the metal transport belt comprises a straight section and a curved section downstream from the straight section where the metal transport belt curves and changes direction; a sheet separation system for separating the sheets from the metal transport belt, wherein the sheets are separated from the metal transport belt by applying a local overpressure on an underside of the sheets in an overpressure zone; and a sheet separation guide which guides the separated sheets away from the metal transport belt, wherein the sheet separation guide is positioned at the curved section, wherein the sheet separation system comprises a stationary sliding surface positioned under the metal transport belt and upstream of the sheet separation guide, wherein the metal transport belt slides over the stationary sliding surface, and wherein the stationary sliding surface comprises a number of blow holes which define the overpressure zone, the blow holes being connected to a source of pressurized air, wherein the blow holes are configured to apply a local overpressure in the overpressure zone through the metal transport belt onto the underside of the sheets to separate a front end of the sheets from the metal transport belt, and wherein the overpressure zone is formed in a curved part of the stationary sliding surface, wherein the overpressure zone has an upstream end and a downstream end which are determined by the location of the blow holes, and wherein the sheet separation guide directly adjoins the overpressure zone at the downstream end thereof, transporting a sheet with the endless metal transport belt toward and along the curved section, wherein the metal transport belt is guided along at least a part of the curved section by the curved part which forms the overpressure zone of the stationary sliding surface, and wherein a local overpressure is applied through the blow holes, thereby separating a front end of the sheet from the metal transport belt; and guiding the sheet away from the metal transport belt by the sheet separation guide which directly adjoins the overpressure zone at the downstream end thereof. 16. The printing system according to claim 8 , wherein the curved part which forms the overpressure zone is located vertically above a highest point of the roller. 17. The printing system according to claim 8 , wherein the curved part which forms the overpressure zone is located downstream of a vertical plane extending through an upstream point